Title :
Pulsed laser deposition of ferroelectric bismuth titanate
Author :
Buhay, H. ; Sinharoy, S. ; Kasner, W.H. ; Francombe, M.H. ; Lampe, D.R. ; Stepke, E.
Author_Institution :
Westinghouse Sci. & Technol. Center, Pittsburgh, PA, USA
Abstract :
Stoichiometric bismuth titanate films were prepared on MgO, Si, and Pt-coated Si by the technique of pulsed excimer laser deposition. This technique is a high-energy process with the potential to form the ferroelectric phase at a lower temperature than by sputtering. Fiber textured films were obtained on MgO(110) with preferred c-axis orientation. Polycrystalline films were obtained on Si(100) and Pt-coated Si at a temperature as low as 500°C. The estimated saturation polarization and coercive field measured for the films were 28.0 μC/cm2 and 200 kV/cm, respectively. Also important from an integrated silicon device point of view, the as-deposited films had few particulates and were crack-free without the need for a postdeposition anneal. Results of attempts to integrate the films prepared in this manner in a FET memory structure are outlined
Keywords :
bismuth compounds; coercive force; dielectric polarisation; ferroelectric thin films; pulsed laser deposition; stoichiometry; Bi12TiO20; FET memory structure; coercive field; crack-free; estimated saturation polarization; ferroelectric phase; fiber textured; films; particulates; postdeposition anneal; pulsed excimer laser deposition; sputtering; stoichiometry; Bismuth; Ferroelectric films; Ferroelectric materials; Fiber lasers; Optical pulses; Pulsed laser deposition; Semiconductor films; Sputtering; Temperature; Titanium compounds;
Conference_Titel :
Applications of Ferroelectrics, 1990., IEEE 7th International Symposium on
Conference_Location :
Urbana-Champaign, IL
Print_ISBN :
0-7803-0190-0
DOI :
10.1109/ISAF.1990.200213
